Rett-causing mutations reveal two domains critical for MeCP2 function and for toxicity in MECP2 duplication syndrome mice

Autor: Laura Dean Heckman, Maria H Chahrour, Huda Y Zoghbi

Publikováno v: eLife, Vol 3 (2014)

Loss of function of the X-linked gene encoding methyl-CpG binding protein 2 (MeCP2) causes the progressive neurological disorder Rett syndrome (RTT). Conversely, duplication or triplication of Xq28 causes an equally wide-ranging progressive neurologi

Externí odkaz: https://doaj.org/article/b6cbd4e3f6264246ba7bc27f55a878e0

Biallelic mutations in the 3 ' exonuclease TOE1 cause pontocerebellar hypoplasia and uncover a role in snRNA processing

Autor: Jens Lykke-Andersen, Marie-Cécile Nassogne, Nicola Foulds, Susan Blaser, Anne Gregor, Rea M. Lardelli, Stefania Maria Bova, Ashleigh E. Schaffer, Linda Warwick, Masaaki Shiina, Eric Scott, Hülya Kayserili, Murat Gunel, Linda De Meirleir, Ahmet Okay Caglayan, Luigina Spaccini, Kazuhiro Ogata, Ari Widjaja, Naiara Akizu, Naomichi Matsumoto, David Chitayat, Henrik Thybo Christesen, Stephanie Grainger, David K. Manchester, Laura Dean Heckman, Gene W. Yeo, Sebastian Markmiller, Kazuhiro Muramatsu, Rohit Mande, Maha S. Zaki, Zinayida Schlachetzki, Umut Altunoglu, Kimberly A. Aldinger, Maria Kibaek, Joseph G. Gleeson, Justin H Davies, Mary Louise Freckmann, Eric J. Bennett, Jennifer L. Silhavy, Timothy Shaw, Esra Dikoglu, David Traver, Hüseyin Per, Eric L. Van Nostrand, Neil C. Chi, Stacey Gabriel, Enza Maria Valente, Hirotomo Saitsu, Veerle Rc Eggens, Shashank Sathe, Rasim Ozgur Rosti, Christina Fagerberg, Kaya Bilguvar, Alicia Guemez-Gamboa, Frank Baas, Basak Rosti, Damir Musaev, Isaac Marin-Valencia, William B. Dobyns

Publikováno v: Nature genetics
Nature Genetics, 49(3), 457-464
Nature Genetics, Vol. 49, no.3, p. 457-464 (2017)
Nature genetics, 49(3), 457-464. Nature Publishing Group
Lardelli, R M, Schaffer, A E, Eggens, V R C, Zaki, M S, Grainger, S, Sathe, S, Van Nostrand, E L, Schlachetzki, Z, Rosti, B, Akizu, N, Scott, E, Silhavy, J L, Heckman, L D, Rosti, R O, Dikoglu, E, Gregor, A, Guemez-Gamboa, A, Musaev, D, Mande, R, Widjaja, A, Shaw, T L, Markmiller, S, Marin-Valencia, I, Davies, J H, De Meirleir, L, Kayserili, H, Altunoglu, U, Freckmann, M L, Warwick, L, Chitayat, D, Blaser, S, Ça Layan, A O, Bilguvar, K, Per, H, Fagerberg, C, Christesen, H B T, Kibæk, M, Aldinger, K A, Manchester, D, Matsumoto, N, Muramatsu, K, Saitsu, H, Shiina, M, Ogata, K, Foulds, N, Dobyns, W B, Chi, N C, Traver, D, Spaccini, L, Bova, S M, Gabriel, S B, Gunel, M, Valente, E M, Nassogne, M C, Bennett, E J, Yeo, G W, Baas, F, Lykke-Andersen, J & Gleeson, J G 2017, ' Biallelic mutations in the 3' exonuclease TOE1 cause pontocerebellar hypoplasia and uncover a role in snRNA processing ', Nature Genetics, vol. 49, no. 3, pp. 457-464 . https://doi.org/10.1038/ng.3762
Nature genetics, vol 49, iss 3

Deadenylases are best known for degrading the poly(A) tail during mRNA decay. The deadenylase family has expanded throughout evolution and, in mammals, consists of 12 Mg2+-dependent 3’ end ribonucleases with mostly unknown substrate specificity1. P

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::91e93af0a10db11f22ffaa9743a63cb4
https://hdl.handle.net/1887/114885